Population study for gamma-ray pulsars: (III) Radiation characteristics and viewing geometry

Abstract

We have performed a Monte-Calro simulation for Galactic population of pulsars and for the γ-ray observations. We apply outer gap model for the γ-ray emission process, and study the radiation characteristics as a function of the magnetic inclination angle (α) and the Earth viewing angle (ζ). In our model, the γ-ray flux and the spectral cut-off energy tend to decrease as the inclination and viewing angles deviate from 90. The emerging spectrum above 100 MeV becomes soft with a photon index p 1.8-2 for ζ → 90 and p 1.2-1.3 for ζ 90. Our simulation predicts that the pulsars with larger inclination angles (α=70-90) and larger viewing angles (ζ=70-90) have been preferentially detected by the Fermi γ-ray telescope, and hence the observed pulse profiles of the γ-ray pulsars have the double peak structure rather than single peak. In the simulation, most γ-ray millisecond pulsars are categorized as the radio-quiet γ-ray pulsars, because its radio fluxes are under the sensitivities of the major radio surveys. Even we drastically increase the radio sensitivity by a factor of ten, the number of radio-selected millisecond pulsars detected by the Fermi ten years observations is still much less than the expected γ-ray-selected millisecond pulsars, indicating the radio-quiet millisecond pulsars must contribute to the Fermi unidentified sources and/or the γ-ray background radiations. The Unique radiation properties of the low-efficient γ-ray pulsar, PSR J0659+1414, can be explained by the present our gap model with a viewing geometry of α ζ=40-50.